Video display device with onboard hardcopy capability

ABSTRACT

A video display device includes a digital frame store to store a digitized version of a displayed image. A print control chip is coupled to the digital frame store and is also responsive to commands generated by means for processing user input. The print control chip operates a printing assembly that is integrated into the video display device including a pagewidth printer and a print media transport mechanism. In use printed sheets corresponding to the displayed image are printed in accordance with user input. In a preferred embodiment the video display device comprises a data projector.

CROSS REFERENCE TO RELATED APPLICATIONS

This is a Continuation application of U.S. Ser. No. 10/949,292 filed onSep. 27, 2004, which is a Continuation of Ser. No. 10/432,956 filed onMay 29, 2003, now issued U.S. Pat. No. 6,799,853 which is a 371 ofPCT/AU01/01512 filed on Nov. 22, 2001 the entire contents of which areherein incorporated by reference.

BACKGROUND OF THE INVENTION

The following invention relates to a data projector with an internalprinter. More particularly, though not exclusively, the inventionrelates to a data projector having a pagewidth drop on demand ink jetprinthead and a source of print media located in the projector body.

It is known to make presentations to a group of people using a dataprojector connected to a portable computer. Using appropriate software,the portable computer can generate a sequence of text and/or graphicimages for projection upon a screen using the projector.

The portable computer might also be connected to a printer. However, ifa member or members of the group require a printout of an image on ascreen, printer driver software must be activated by the operator of theportable computer. Usually, a printer driver-associated window appearsin the screen to report the status of any printing request. Such awindow would be disruptive to the overall presentation as it wouldappear on the image being projected onto the screen. This would bedisruptive, particularly if only one person of the group required aprintout.

The attachment of a separate printer to the portable computer would alsobe generally inconvenient as there would be separate cabling requiredbetween the computer and the printer and the printer would need a powersupply, possibly requiring the use of an electrical double adaptor orthe like.

OBJECTS OF THE INVENTION It is an object of the present invention toovercome or substantially ameliorate at least one of the abovedisadvantages.

It is another object of the present invention to provide a dataprojector having an in-built printer.

It is a further object of the present invention to provide a simplemeans of printing a “screen dump” of a displayed image without thenecessity of cabling in addition to that which would normally benecessary to operate the data projector with a portable computer.

It is yet another object of the present invention to provide a means ofenabling a printed “screen dump” of an image projected by a dataprojector without that image being altered by any printer-driversoftware.

DISCLOSURE OF THE INVENTION

According to the invention, there is provided a data projector thatcomprises projector control circuitry for receiving analogue datasignals from a computer-based machine representing images to beprojected at a viewing surface;

an analogue to digital converter connected to the control circuitry forreceiving the analogue data signals from the control circuitry and forconverting said signals into digital signals;

a printhead for printing images represented by the digital signals; and

printer control circuitry for controlling operation of the printhead anddelivery of data to the printhead.

A memory device may be interposed between the printer and the converterto store digitized data received from the converter.

The memory device may be a digital frame store.

The printer control circuitry may include a print engine controller thatis connected to the printhead to receive data from the memory device.

The printer control circuitry may include a micro-controller to providethe print engine controller with print activation signals.

The data projector may include an actuation device that is connected tothe micro-controller to permit an operator to control operation of theprinthead.

There is disclosed herein a data projector for projecting images at aviewing surface, the data projector including a built-in printer forprinting an image projected by the projector. Preferably the dataprojector receives video information from a portable computer.

Preferably, the data projector includes an activator to activate a printrequest.

Preferably, the activator is a button on the data projector.

Alternatively, the activator is a keypad on the data projector.

Alternatively, the activator includes a signal receiver on the dataprojector associated with a remote signal transmitter.

Preferably the signal receiver and/or transmitter use infrared datatransmission.

Preferably the data projector has means for storing a supply of printmedia therein.

Preferably integrated with and/or associated with circuitry in theprojector is an analogue to digital converter to convert analogue imagedata into digital form.

Preferably the digital form of the image is stored in a frame store.

Preferably the projector also has built into it a print engine controlchip receiving information from the frame store and sending thatinformation to a printhead upon instruction from the activator.

Preferably a micro-control circuit controls information from the framestore to the print engine control chip.

Preferably the printhead is a pagewidth printhead such as that describedin greater detail in our co-pending applications U.S. Ser. No.09/575,115 and U.S. Ser. No. 09/575,141.

BRIEF DESCRIPTION OF THE DRAWINGS

A preferred form of the present invention will now be described by wayof example with reference to the accompanying drawings wherein:

FIG. 1 is a schematic illustration showing an association between a dataprojector having an in-built printer and a portable computer, and

FIG. 2 is a schematic block diagram including circuity built into thedata projector to enable an image projected thereby to be printed.

DESCRIPTION OF THE PREFERRED EMBODIMENT

In FIG. 1 of the accompanying drawings there is schematically depicted adata projector 10 interconnected with a portable computer 17 by means ofa “VGA” cable 16. Cable 16 relays analogue video signals from theportable computer 17 to the projector 10. These signals would typicallybe “VGA” or Video Graphic Adaptor signals or signals providing a higherresolution image such as “SVGA” or Super Video Graphic Adaptor signalsor the like.

Typically, cable 16 is the only cable extending between computer 17 andprojector 10. However, if a desktop computer is used, a power supplycable might also extend from the computer to the projector.

The projector 10 includes a lens 11 by which an image is projected upona screen.

Located within the housing of projector 10 is a printer including aprinthead 23 and a store of print media (not shown). The print mediawould typically be A4 sized paper.

In order to activate a printing operation so as to produce a printout or“screen dump” of an image projected by lens 11, one of severalactivators is provided. For example, a single print button 13 might beprovided or a keypad 12. As a further option, an infrared detector 24might be provided.

Where a single print of an image being projected is required, button 13might be depressed. As a result, a sheet 14 would be produced by theprinter. It might be desirable to produce a printout of every image of asequence of images projected by the projector 10 and/or multiple copiesof a single image for distribution to several people. This might beaccommodated by pressing certain keys or combinations of keys on keypad12.

The presenter of a presentation being projected by the projector 10might hold an infrared remote control unit. Depression of a key or keyson that unit could transmit a signal to be read by infrared receiver 24to produce the same effect as single button 13 or the keypad 12. Morecomplex signals such as those required to achieve the same effect aspushing a key or combination of keys on keypad 12 might also betransmitted by an infrared remote control unit to the receiver 24.

With reference to FIG. 2, there is shown the computer 17 transmittinganalogue video signals via cable 16 to projector circuitry 18 situatedwithin projector 10. Associated with that circuitry or added thereto isan analogue to digital converter 19 converting analogue image data intodigital form for storage in a digital frame store 20. That is, framestore 20 would hold at any given time digital information equivalent toan analogue image projected by lens 11.

The output of information from frame store 20 can be received by a printengine control chip 22 to control printhead 23 situated within theprojector housing. A micro-control 21 receives an activation signal fromone of activation devices 12, 13 or 24 to instruct the print enginecontrol chip to control the printhead so as to print a frame stored inframe store 20.

The printhead 23 would typically be a pagewidth printhead of the typedisclosed in our co-pending applications U.S. Ser. No. 09/575,115 andU.S. Ser. No. 09/575,141.

Associated with the printhead would be a print media transportationmechanism and platen across which the sheets would be driven whilstreceiving printed information prior to dispensing from the projectorhousing as shown in FIG. 1.

It should be appreciated that modification and alterations obvious tothose skilled in the art are not to be considered as beyond the scope ofthe present invention. For example, rather than incorporating theprinter mechanism into a data projector, it could be incorporated intoany video display device.

1. A video display device arranged to convert a data signal into animage, including: a digital frame store to store a digitized version ofthe data signal; a print control chip coupled to the digital framestore; and a printing assembly responsive to the print control chipwhereby the printing assembly generates one or more printed sheet of theimage.
 2. A video display device according to claim 1, wherein the printcontrol chip is responsive to an activator arranged to receive operatorinstructions.
 3. A video display device according to claim 2, whereinthe activator comprises a single switch and wherein the print controlchip is arranged to command the printhead assembly to generate a singleprinted sheet of the image in response to operation of said switch.
 4. Avideo display device according to claim 2, wherein the activatorcomprises a wireless receiver integrated with the video display deviceand responsive to a remote control unit.
 5. A video display deviceaccording to claim 4, wherein the wireless receiver and remote controlunit comprise an infrared receiver and infrared remote control unit. 6.A video display device according to claim 2, wherein the activatorprovides an option for the operator to request the printing of multiplesheets corresponding to the image.
 7. A video display device accordingto claim 1, wherein the printing assembly includes a print mediatransport mechanism and a pagewidth printhead.
 8. A video display deviceaccording to claim 7, wherein the printing assembly includes a platen.9. A video display device according to claim 1 comprising a dataprojector.
 10. A data projector for generating projected images inresponse to a signal, the data projector including: an analog-to-digitalconverter coupling said signal to a digital frame store; an activator toprocess operator instructions; a print control chip coupled to thedigital frame store and responsive to the activator; and a printingassembly including a pagewidth printhead and print media transportationmechanism responsive to the print control chip whereby the printingassembly generates one or more printed sheets of the image in accordancewith operator instructions.